Genetics and Environment Certainly the single most foundational idea in all of biology, and perhaps the greatest biological discovery… –All life is connected.

Evolution Evolution – changes in the traits of a population over time Explains how modern organisms have descended from ancient organisms, and continue to change even now

“Equation” Variation +Inheritance +Struggle for life Differential reproductive success +Time Change over time Variation +Inheritance +Struggle for life Differential reproductive success +Time Change over time

Evolution by Natural Selection 1.Variation Individuals vary from one another in billions of ways.

Evolution by Natural Selection 2. Inheritance Some variations have a genetic basis, and are passed from parent to offspring. Mutation adds new variations to a gene pool.

Natural Variation You and the person next to you share 99.9% of your DNA… but there are still 3 MILLION base pairs different between you! What are some of the phenotypic differences that result? (Think both visible and unseen differences…)

Variation of Traits in a Population Variations can be physical, behavioral, and biochemical traits (phenotype) because of differences in their genes (genotype). –Genetic variation is due to random DNA mutation, crossing over during meiosis, and sexual reproduction.

Population - all the individuals of a species that live in the same area Gene Pool – combined genetic information of all the members of a population Allele Frequency – how common an allele is in the gene pool

Organisms are not identical; they have varying behaviors and structures

Some variability is inherited

Evolution by Natural Selection 3. Struggle for Life There aren’t enough resources for every individual to live and breed forever. Everything must compete to survive and reproduce.

Reproduction Example A pair of barn swallows arrived at my house in summer Barn swallows have an average of 10 chicks a year, and chicks return to their birthplace to start their own nests the next year. How many barn swallows were at my house by 1990?

Year# of Adult Swallows , , , ,872

Overreproduction A single bacterium dividing every 20 minutes would have 40,000,000,000,000,000,000,000 offspring by the end of one day. After two days, it would have enough offspring to cover the entire Earth in a 2 meter layer of bacteria. In one year, a single pair of fruit flies would have so many offspring, their descents would weigh more than the planet. The elephant is one of the slowest breeding species. But one pair of elephants would have 19 million descendents 750 years later. By contrast, there are only 700,000 elephants alive in the whole world today.

Overreproduction Why aren’t we buried in barn swallows, bacteria, fruit flies, elephants, and everything else? Factors which limit equal survival and reproduction for all individuals include… Limited resources (examples: oxygen, nitrogen, water, food, space) Predation (being eaten, disease) Dangerous environments (climate, disasters)

Organisms produce many offspring.

Resources to support offspring are limited.

There is competition for survival and reproduction.

4. Differential Reproductive Success Some individuals have more offspring than others –Adaptation – an inherited characteristic that increases an organisms chance for survival and reproduction

Flowchart On average, the organisms best suited for survival and reproduction leave the most offspring = natural selection

What determines success? Fitness - How well suited an individual is to survive & reproduce in its current environment (Does not have to mean “physically strong”) Ex: Sneaker crickets - Big healthy loud male gets eaten by bats, tiny skimpy hiding male gets to mate with the females. Skimpy male = higher fitness!

What determines success? –traits that help individuals survive survive predators survive disease compete for food compete for territory –traits that help individuals reproduce attracting a mate compete for nesting sites successfully raise young

5. Change over time After many generations of natural selection, changes in inherited characteristics occur within the whole population